Hand Grip Strength on a Large PDA: Holding While Reading Is Different from a Functional Task

Several studies have been done measuring preferred hand grip strength, but none of them has measured preferred hand strength on a PDA or similar device when it is held and used. We measured dominant hand strength in two conditions similar to real PDA use, resting fore-arms on a table and holding the PDA without table support. We found that adult participants squeeze the device with their preferred hand significantly more than with their nonpreferred hand while holding. In addition, we examined users' hand strength while they were tapping on the back of the device with their right and left index fingers. Our results were different than expected from previous studies, as we found that there was no significant difference in dominant and non dominant hand strength during back tapping. Also participants' non preferred hand strength was not significantly different with their preferred hand when they tap on the back of the device. The results show that in such functional use during tapping, the dominant and non-dominant hands are used similarly which will contribute to future designs for PDAs and their interfaces. Our results may also contribute to design for more comfortable devices for users with hand disabilities.

[1]  J. Pearn,et al.  Norms for hand grip strength. , 1984, Archives of disease in childhood.

[2]  M. Peters,et al.  Handedness measured by finger tapping: a continuous variable. , 1978, Canadian journal of psychology.

[3]  C. Nicolay,et al.  Grip strength and endurance: Influences of anthropometric variation, hand dominance, and gender , 2005 .

[4]  M. Annett A classification of hand preference by association analysis. , 1970, British journal of psychology.

[5]  Randolph G. Bias,et al.  Research Methods for Human-Computer Interaction , 2010, J. Assoc. Inf. Sci. Technol..

[6]  Didier Cros,et al.  Physiological motor asymmetry in human handedness: evidence from transcranial magnetic stimulation , 1994, Brain Research.

[7]  Beverley Norris,et al.  Filling 'gaps' in strength data for design. , 2003, Applied ergonomics.

[8]  M. Merzenich,et al.  Neurophysiological correlates of hand preference in primary motor cortex of adult squirrel monkeys , 1992, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[9]  Tamás D. Gedeon,et al.  Comparing User Performance on an iPad to a 17-inch BackPad , 2012, 2012 Sixth International Conference on Complex, Intelligent, and Software Intensive Systems.

[10]  N. Incel,et al.  Grip strength: effect of hand dominance. , 2002, Singapore medical journal.

[11]  G. Fink,et al.  Predictive force programming in the grip-lift task: The role of memory links between arbitrary cues and object weight , 2008, Neuropsychologia.

[12]  Mark D. Dunlop,et al.  The Challenge of Mobile Devices for Human Computer Interaction , 2002, Personal and Ubiquitous Computing.

[13]  I C McManus,et al.  Genetics of handedness in relation to language disorder. , 1984, Advances in neurology.

[14]  B Milner,et al.  THE ROLE OF EARLY LEFT‐BRAIN INJURY IN DETERMINING LATERALIZATION OF CEREBRAL SPEECH FUNCTIONS , 1977, Annals of the New York Academy of Sciences.

[15]  C. H. Vanderwolf,et al.  The relation between hand preference and the performance of individual finger movements by left and right hands. , 1970, Brain : a journal of neurology.

[16]  T. Krahe,et al.  The effects of hand preference and gender on finger tapping performance asymmetry by the use of an infra-red light measurement device , 2000, Neuropsychologia.

[17]  Bernd Fröhlich,et al.  Two-handed direct manipulation on the responsive workbench , 1997, SI3D.